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See detailStochastic thermodynamics of all-to-all interacting many-body systems
Herpich, Tim; Cossetto, Tommaso UL; Falasco, Gianmaria UL et al

in New Journal of Physics (2020), 22(6), 063005

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See detailStochastic and Quantum Thermodynamics of Driven RLC Networks
Freitas, Jose Nahuel UL; Delvenne, Jean-Charles; Esposito, Massimiliano UL

in Physical Review X (2020)

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See detailStochastic and Quantum Thermodynamics of Driven RLC Networks
Freitas, Nahuel; Delvenne, Jean-Charles; Esposito, Massimiliano UL

in Physical Review X (2020), 10(3), 031005

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See detailWork Statistics across a Quantum Phase Transition
Fei, Zhaoyu; Freitas, Nahuel; Cavina, Vasco UL et al

in Physical Review Letters (2020), 124(17), 170603

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See detailThermodynamics of optical Bloch equations
Elouard, Cyril; Herrera-Marti, David; Esposito, Massimiliano UL et al

in New Journal of Physics (2020), 22(10), 103039

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See detailMicro-reversibility and thermalization with collisional baths
Ehrich, Jannik; Esposito, Massimiliano UL; Barra, Felipe et al

in Physica A. Statistical Mechanics and its Applications (2020)

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See detailEntropy Production in Open Systems: The Predominant Role of Intraenvironment Correlations
Ptaszyński, Krzysztof; Esposito, Massimiliano UL

in PHYSICAL REVIEW LETTERS (2019)

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See detailThermodynamic efficiency in dissipative chemistry
Penocchio, Emanuele UL; Rao, Riccardo; Esposito, Massimiliano UL

in Nature Communications (2019), 10(1), 1-5

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See detailMicro-reversibility and thermalization with collisional baths
Ehrich, Jannik; Esposito, Massimiliano UL; Barra, Felipe et al

in Cornell University (2019)

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See detailThermodynamics of Chemical Waves
Avanzini, Francesco UL; Falasco, Gianmaria UL; Esposito, Massimiliano UL

in Cornell University (2019)

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See detailThermodynamics of Majority-Logic Decoding in Information Erasure
Sheng, Shiqi; Herpich, Tim UL; Diana, Giovanni et al

in Entropy (2019), 21(3), 284

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See detailUniversality in driven Potts models
Herpich, Tim UL; Esposito, Massimiliano UL

in Physical Review. E. (2019)

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See detailEffective Fluctuation and Response Theory
Polettini, Matteo UL; Esposito, Massimiliano UL

in Journal of Statistical Physics (2019), 176(1), 94-168

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See detailNegative differential response in chemical reactions
Falasco, Gianmaria UL; Cossetto, Tommaso UL; Penocchio, Emanuele UL et al

in New Journal of Physics (2019), 21

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See detailThermodynamics of Quantum Information Flows
Ptaszynski, Krzysztof; Esposito, Massimiliano UL

in Physical Review Letters (2019), 122(15),

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See detailNon-Markovianity and negative entropy production rates
Strasberg, P.; Esposito, Massimiliano UL

in Physical Review. E. (2019), 99(1),

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See detailLarge deviations and dynamical phase transitions in stochastic chemical networks
Lazarescu, Alexandre; Cossetto, Tommaso UL; Falasco, Gianmaria UL et al

in Journal of Chemical Physics (2019), 151(6),

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See detailLandau-Zener Lindblad equation and work extraction from coherences
Thingna, J.; Esposito, Massimiliano UL; Barra, F.

in Physical Review. E. (2019), 99(4),

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See detailCollective Power: Minimal Model for Thermodynamics of Nonequilibrium Phase Transitions
Herpich, Tim UL; Thingna, Juzar; Esposito, Massimiliano UL

in Physical Review. X (2018), 8(3), 031056

We propose a thermodynamically consistent minimal model to study synchronization which is made of driven and interacting three-state units. This system exhibits at the mean-field level two bifurcations ... [more ▼]

We propose a thermodynamically consistent minimal model to study synchronization which is made of driven and interacting three-state units. This system exhibits at the mean-field level two bifurcations separating three dynamical phases: a single stable fixed point, a stable limit cycle indicative of synchronization, and multiple stable fixed points. These complex emergent dynamical behaviors are understood at the level of the underlying linear Markovian dynamics in terms of metastability, i.e. the appearance of gaps in the upper real part of the spectrum of the Markov generator. Stochastic thermodynamics is used to study the dissipated work across dynamical phases as well as across scales. This dissipated work is found to be reduced by the attractive interactions between the units and to nontrivially depend on the system size. When operating as a work-to- work converter, we find that the maximum power output is achieved far-from-equilibrium in the synchronization regime and that the efficiency at maximum power is surprisingly close to the linear regime prediction. Our work shows the way towards building a thermodynamics of nonequilibrium phase transitions in conjunction to bifurcation theory. [less ▲]

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See detailInformation Thermodynamics of Turing Patterns
Falasco, Gianmaria UL; Rao, Riccardo UL; Esposito, Massimiliano UL

in Physical Review Letters (2018)

e set up a rigorous thermodynamic description of reaction-diffusion systems driven out of equilibrium by time-dependent space-distributed chemostats. Building on the assumption of local equilibrium ... [more ▼]

e set up a rigorous thermodynamic description of reaction-diffusion systems driven out of equilibrium by time-dependent space-distributed chemostats. Building on the assumption of local equilibrium, nonequilibrium thermodynamic potentials are constructed exploiting the symmetries of the chemical network topology. It is shown that the canonical (resp. semigrand canonical) nonequilibrium free energy works as a Lyapunov function in the relaxation to equilibrium of a closed (resp. open) system and its variation provides the minimum amount of work needed to manipulate the species concentrations. The theory is used to study analytically the Turing pattern formation in a prototypical reaction-diffusion system, the one-dimensional Brusselator model, and to classify it as a genuine thermodynamic nonequilibrium phase transition. [less ▲]

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